Mechanical loading of adipose derived stromal cells causes cell alignment

Abstract: Osteoarthritis is a debilitating disease that affects hundreds of millions of people worldwide. Current research involving growth and characterization of adipose derived stromal cells (ADSC) in vitro offers a potential solution for the treatment of cartilage de-fects that will allow patients to return to the physical activities they were involved in. Studies have shown that fibroblast cells grown in vitro respond to cyclic mechanical stretching by orienting in a direction perpendicular to the direction of stre… Show more

“…The organization of the F-actin in the cells loaded in vitro was unchanged compared to the non-loaded control, with no major direction. Various studies have proven that different cell types are capable of sensing mechanical loading and align the cytoskeleton in the direction of uniaxial strain [36][37][38][39]. In the present study, the applied strain was equibiaxial, and theoretically comes from all directions.…”

In Vivo and In Vitro Mechanical Loading of Mouse Achilles Tendons and Tenocytes—A Pilot Study

“…The organization of the F-actin in the cells loaded in vitro was unchanged compared to the non-loaded control, with no major direction. Various studies have proven that different cell types are capable of sensing mechanical loading and align the cytoskeleton in the direction of uniaxial strain [36][37][38][39]. In the present study, the applied strain was equibiaxial, and theoretically comes from all directions.…”

In Vivo and In Vitro Mechanical Loading of Mouse Achilles Tendons and Tenocytes—A Pilot Study